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1 | Linux Plug and Play Documentation |
2 | by Adam Belay <ambx1@neo.rr.com> | |
3 | last updated: Oct. 16, 2002 | |
4 | --------------------------------------------------------------------------------------- | |
5 | ||
6 | ||
7 | ||
8 | Overview | |
9 | -------- | |
10 | Plug and Play provides a means of detecting and setting resources for legacy or | |
11 | otherwise unconfigurable devices. The Linux Plug and Play Layer provides these | |
12 | services to compatible drivers. | |
13 | ||
14 | ||
15 | ||
16 | The User Interface | |
17 | ------------------ | |
18 | The Linux Plug and Play user interface provides a means to activate PnP devices | |
19 | for legacy and user level drivers that do not support Linux Plug and Play. The | |
b1c7192d | 20 | user interface is integrated into sysfs. |
1da177e4 | 21 | |
b1c7192d | 22 | In addition to the standard sysfs file the following are created in each |
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23 | device's directory: |
24 | id - displays a list of support EISA IDs | |
25 | options - displays possible resource configurations | |
26 | resources - displays currently allocated resources and allows resource changes | |
27 | ||
28 | -activating a device | |
29 | ||
30 | #echo "auto" > resources | |
31 | ||
32 | this will invoke the automatic resource config system to activate the device | |
33 | ||
34 | -manually activating a device | |
35 | ||
36 | #echo "manual <depnum> <mode>" > resources | |
37 | <depnum> - the configuration number | |
38 | <mode> - static or dynamic | |
39 | static = for next boot | |
40 | dynamic = now | |
41 | ||
42 | -disabling a device | |
43 | ||
44 | #echo "disable" > resources | |
45 | ||
46 | ||
47 | EXAMPLE: | |
48 | ||
49 | Suppose you need to activate the floppy disk controller. | |
50 | 1.) change to the proper directory, in my case it is | |
51 | /driver/bus/pnp/devices/00:0f | |
52 | # cd /driver/bus/pnp/devices/00:0f | |
53 | # cat name | |
54 | PC standard floppy disk controller | |
55 | ||
56 | 2.) check if the device is already active | |
57 | # cat resources | |
58 | DISABLED | |
59 | ||
60 | - Notice the string "DISABLED". THis means the device is not active. | |
61 | ||
62 | 3.) check the device's possible configurations (optional) | |
63 | # cat options | |
64 | Dependent: 01 - Priority acceptable | |
65 | port 0x3f0-0x3f0, align 0x7, size 0x6, 16-bit address decoding | |
66 | port 0x3f7-0x3f7, align 0x0, size 0x1, 16-bit address decoding | |
67 | irq 6 | |
68 | dma 2 8-bit compatible | |
69 | Dependent: 02 - Priority acceptable | |
70 | port 0x370-0x370, align 0x7, size 0x6, 16-bit address decoding | |
71 | port 0x377-0x377, align 0x0, size 0x1, 16-bit address decoding | |
72 | irq 6 | |
73 | dma 2 8-bit compatible | |
74 | ||
75 | 4.) now activate the device | |
76 | # echo "auto" > resources | |
77 | ||
78 | 5.) finally check if the device is active | |
79 | # cat resources | |
80 | io 0x3f0-0x3f5 | |
81 | io 0x3f7-0x3f7 | |
82 | irq 6 | |
83 | dma 2 | |
84 | ||
85 | also there are a series of kernel parameters: | |
86 | pnp_reserve_irq=irq1[,irq2] .... | |
87 | pnp_reserve_dma=dma1[,dma2] .... | |
88 | pnp_reserve_io=io1,size1[,io2,size2] .... | |
89 | pnp_reserve_mem=mem1,size1[,mem2,size2] .... | |
90 | ||
91 | ||
92 | ||
93 | The Unified Plug and Play Layer | |
94 | ------------------------------- | |
95 | All Plug and Play drivers, protocols, and services meet at a central location | |
96 | called the Plug and Play Layer. This layer is responsible for the exchange of | |
97 | information between PnP drivers and PnP protocols. Thus it automatically | |
98 | forwards commands to the proper protocol. This makes writing PnP drivers | |
99 | significantly easier. | |
100 | ||
101 | The following functions are available from the Plug and Play Layer: | |
102 | ||
103 | pnp_get_protocol | |
104 | - increments the number of uses by one | |
105 | ||
106 | pnp_put_protocol | |
107 | - deincrements the number of uses by one | |
108 | ||
109 | pnp_register_protocol | |
110 | - use this to register a new PnP protocol | |
111 | ||
112 | pnp_unregister_protocol | |
113 | - use this function to remove a PnP protocol from the Plug and Play Layer | |
114 | ||
115 | pnp_register_driver | |
116 | - adds a PnP driver to the Plug and Play Layer | |
117 | - this includes driver model integration | |
982c6094 BH |
118 | - returns zero for success or a negative error number for failure; count |
119 | calls to the .add() method if you need to know how many devices bind to | |
120 | the driver | |
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121 | |
122 | pnp_unregister_driver | |
123 | - removes a PnP driver from the Plug and Play Layer | |
124 | ||
125 | ||
126 | ||
127 | Plug and Play Protocols | |
128 | ----------------------- | |
129 | This section contains information for PnP protocol developers. | |
130 | ||
131 | The following Protocols are currently available in the computing world: | |
132 | - PNPBIOS: used for system devices such as serial and parallel ports. | |
133 | - ISAPNP: provides PnP support for the ISA bus | |
134 | - ACPI: among its many uses, ACPI provides information about system level | |
135 | devices. | |
136 | It is meant to replace the PNPBIOS. It is not currently supported by Linux | |
137 | Plug and Play but it is planned to be in the near future. | |
138 | ||
139 | ||
140 | Requirements for a Linux PnP protocol: | |
141 | 1.) the protocol must use EISA IDs | |
142 | 2.) the protocol must inform the PnP Layer of a devices current configuration | |
a982ac06 | 143 | - the ability to set resources is optional but preferred. |
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144 | |
145 | The following are PnP protocol related functions: | |
146 | ||
147 | pnp_add_device | |
148 | - use this function to add a PnP device to the PnP layer | |
149 | - only call this function when all wanted values are set in the pnp_dev | |
150 | structure | |
151 | ||
152 | pnp_init_device | |
153 | - call this to initialize the PnP structure | |
154 | ||
155 | pnp_remove_device | |
156 | - call this to remove a device from the Plug and Play Layer. | |
157 | - it will fail if the device is still in use. | |
158 | - automatically will free mem used by the device and related structures | |
159 | ||
160 | pnp_add_id | |
161 | - adds a EISA ID to the list of supported IDs for the specified device | |
162 | ||
163 | For more information consult the source of a protocol such as | |
164 | /drivers/pnp/pnpbios/core.c. | |
165 | ||
166 | ||
167 | ||
168 | Linux Plug and Play Drivers | |
169 | --------------------------- | |
170 | This section contains information for linux PnP driver developers. | |
171 | ||
172 | The New Way | |
173 | ........... | |
174 | 1.) first make a list of supported EISA IDS | |
175 | ex: | |
176 | static const struct pnp_id pnp_dev_table[] = { | |
177 | /* Standard LPT Printer Port */ | |
178 | {.id = "PNP0400", .driver_data = 0}, | |
179 | /* ECP Printer Port */ | |
180 | {.id = "PNP0401", .driver_data = 0}, | |
181 | {.id = ""} | |
182 | }; | |
183 | ||
184 | Please note that the character 'X' can be used as a wild card in the function | |
185 | portion (last four characters). | |
186 | ex: | |
4ae0edc2 | 187 | /* Unknown PnP modems */ |
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188 | { "PNPCXXX", UNKNOWN_DEV }, |
189 | ||
190 | Supported PnP card IDs can optionally be defined. | |
191 | ex: | |
192 | static const struct pnp_id pnp_card_table[] = { | |
193 | { "ANYDEVS", 0 }, | |
194 | { "", 0 } | |
195 | }; | |
196 | ||
197 | 2.) Optionally define probe and remove functions. It may make sense not to | |
198 | define these functions if the driver already has a reliable method of detecting | |
199 | the resources, such as the parport_pc driver. | |
200 | ex: | |
201 | static int | |
202 | serial_pnp_probe(struct pnp_dev * dev, const struct pnp_id *card_id, const | |
203 | struct pnp_id *dev_id) | |
204 | { | |
205 | . . . | |
206 | ||
207 | ex: | |
208 | static void serial_pnp_remove(struct pnp_dev * dev) | |
209 | { | |
210 | . . . | |
211 | ||
212 | consult /drivers/serial/8250_pnp.c for more information. | |
213 | ||
214 | 3.) create a driver structure | |
215 | ex: | |
216 | ||
217 | static struct pnp_driver serial_pnp_driver = { | |
218 | .name = "serial", | |
219 | .card_id_table = pnp_card_table, | |
220 | .id_table = pnp_dev_table, | |
221 | .probe = serial_pnp_probe, | |
222 | .remove = serial_pnp_remove, | |
223 | }; | |
224 | ||
84eb8d06 | 225 | * name and id_table cannot be NULL. |
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226 | |
227 | 4.) register the driver | |
228 | ex: | |
229 | ||
230 | static int __init serial8250_pnp_init(void) | |
231 | { | |
232 | return pnp_register_driver(&serial_pnp_driver); | |
233 | } | |
234 | ||
235 | The Old Way | |
236 | ........... | |
237 | ||
238 | a series of compatibility functions have been created to make it easy to convert | |
239 | ||
240 | ISAPNP drivers. They should serve as a temporary solution only. | |
241 | ||
242 | they are as follows: | |
243 | ||
244 | struct pnp_card *pnp_find_card(unsigned short vendor, | |
245 | unsigned short device, | |
246 | struct pnp_card *from) | |
247 | ||
248 | struct pnp_dev *pnp_find_dev(struct pnp_card *card, | |
249 | unsigned short vendor, | |
250 | unsigned short function, | |
251 | struct pnp_dev *from) | |
252 |